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Mobile robot control system
Jiruška, Jiří ; Kříž, Vlastimil (referee) ; Hynčica, Ondřej (advisor)
This thesis deals with wireless mobile robot control. The thesis is divided into two main parts. The first part deals with design and implementation of communication protocol based on IEEE 802.15.4 providing communication between robot and PC. The topic of the second part is mathematical description of DC motor and rpm controller design.
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Indoor Robot - Local Navigation
Matějka, Lukáš ; Šolc, František (referee) ; Žalud, Luděk (advisor)
This thesis deals with the problematic of design and realization of autonomous mobile robot, specifically with the subsystem for local navigation for a robot controlled by global navigation based on self-organizing neuron map, possible chassis design and control of these designs. Obstacle detection system is designed as well as optimum direction finding algorithm. Final section of this thesis concerns the possibilities of future improvements and development.
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Control System for Outdoor Mobile Robot
Skočdopole, Tomáš ; Burian, František (referee) ; Žalud, Luděk (advisor)
The aim of this thesis is the design and practical realization of control system based on operating system GNU/Linux for mobile robots operating outdoors. The task of the robot is automatically driving through waypoints in a previously unknown environment. First part contains a description of the environment for the implementation of software, introduces individual parts of the software and then describes communication with the robot peripherals. The second section describes the solution of control and navigation algorithms. At first shows a way to enter the path for independently moving, next an introduction to image processing from the camera and at last determining the direction of movement based on data obtained from the sensory subsystem.
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Mobile Robot Navigation
Goldmann, Tomáš ; Luža, Radim (referee) ; Orság, Filip (advisor)
When we look at the eld of robotics we nd that exist a lot of types of robots. Some of tham use location navigation and global navigation for their work. This work aims to map options of location navigation and description of basic technique which used. Especially, we will deal with algorithms which work with optical sensors, for example camera, stereocamera or laser which scan medium. Practise section this work is focused on the proposal and implementacion algorithm which working with local navigation for robot's return to the starting position. All this work is connecting with tracked robot which formed in the framework one of project realization at Faculty of information technology.
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Autonomous mobile robot motion planning strategy design
Doseděl, Miroslav ; Králík, Jan (referee) ; Věchet, Stanislav (advisor)
This work is concerned with planning the movement of the robot in space and near plants. The main goal is to realize the movement of a robot designed for operation in indoor areas of buildings for watering indoor plants. In the first part of the thesis, existing algorithms for motion planning and obstacle avoidance are presented. In the next part, a search dealing with Framework ROS is written. The individual movements performed by the robot are then described and testing on the real robot is carried out at the end.
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Design of a small mobile robot for educational purposes
Železník, Gabriel ; Huzlík, Rostislav (referee) ; Zuth, Daniel (advisor)
The bachelor's thesis is focused on the design solution for a small educational mobile robot, with the possibility of producing most of the parts using 3D printing. The work is divided into research, design and implementation. The research part briefly describes a classification of the robot and the division of its individual subsystems. The research also describes three commercially available kits and the principle of 3D printing. The design part is reflected in the choice of electronics and gradually discusses the individual design solutions, including the design of API. The last part of the implementation presents three modifications based on the design, which are supplemented by notes for printing from various materials.
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Minidarpa robot - sensors
Sedlák, Luboš ; Šembera, Jaroslav (referee) ; Kopečný, Lukáš (advisor)
Bachelor's thesis be concerned with sensoric system of mobile robot Minidarpa. It means sonar which locate space ahead robot, camera for navigation, electronic compass to compute the direction of the Earth magnetic field and accelerometer which designates tilt, speed and position.
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GNSS Navigated Mobile Robot
Chmelař, Jakub ; Jílek, Tomáš (referee) ; Kopečný, Lukáš (advisor)
The diploma thesis is focused on the topic of global satellite navigation of mobile robots. The paper describes the principle of currently available global satellite navigation systems. The main element of the thesis is the proposal of mobile robot navigation algorithm. An integral part is also the design of a mobile robot to verify the functionality of the navigation algorithm. The robot software program is described. At the end, everything is verified by real experiments.
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Mobile Robot Path Planning Simulation and Calculation.
Koch, Zdeněk ; Šorm, Milan (referee) ; Matoušek, Radomil (advisor)
This thesis deals about design and realization software application "Mobile robot studio" for planning path mobile robot in pseudo 3D world. It contains several tools, witch most important are: simulation control, path planning, world editor and commands editor for CAN. Application was made by technology .NET 2.0 and for 3D design was used Microsoft DirectX 9 API. This thesis has been supported by the Czech Ministry of Education in the frame of MSM 0021630529 Research Intention Inteligent Systems in Automation.
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Guiding of Mobile Robot
Podivín, Ladislav ; Hrabec, Jakub (referee) ; Lebeda, Ondřej (advisor)
This bachelor’s thesis deals with design and implementation of control algorithms for GPS guided mobile robot Ryder. Especially two main abstract layers of mobile robot control are discussed - planning algorithm and algorithm providing steering control. The Ryder robot is equipped with several types of range sensors and based on Ackerman's steering. Its purpose is autonomous movement from start point to goal point without any collision with obstacles.
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